The electronic circuit which is intended to feed a magnetic field sending coil has a first input terminal (1) for receiving a power-supply voltage (Uhat), a second input terminal (2) for receiving a periodic control signal (SC) within a predefined frequency range, an output terminal (4) for generating an output current (I) in sending coil (L) connected between the output terminal (4) and earth (M), in such a way as to convert the periodic control signal into a periodic magnetic field sent out by a coil. In this electronic circuit, a series RLC circuit (RLCI) is connected between the output terminal (4) and earth in order to form a tuned antenna with the sending coil (L). Such a configuration makes it possible to send out magnetic field according to an extended pattern so that a receiver unit has a better sensitivity.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An electronic circuit intended to feed a coil sending out a magnetic field, having a first input terminal ( 1 ) for receiving a power-supply voltage (Ubat), a second input terminal ( 2 ) for receiving a periodic control signal (SC) in a predefined frequency range, an output terminal ( 4 ) for generating an output current (I) in a sending coil (L) connected between the said output terminal ( 4 ) and earth (M), so as to convert the said periodic control signal into a periodic magnetic field sent out by the coil, wherein a series RLC circuit (RLC 1 ) traversed by the output current is connected between the said output terminal ( 4 ) and earth so as to form a tuned antenna with the sending coil (L).
2. The electronic circuit as claimed in claim 1 , comprising a voltage-booster circuit (E) and a transistor (MOS), the said voltage-booster circuit receiving the said power-supply voltage (Ubat) and delivering a boosted voltage, the said boosted voltage being applied to a terminal (Br) of the RLC circuit (RLC 1 ) by way of a transistor (MOS), the said transistor being driven by the control signal (SC), so that the output current (I) flowing in the coil (L) has a peak intensity corresponding to a reference peak intensity.
3. The electronic circuit as claimed in claim 1 , comprising a control circuit (CC) and the transistor (MOS), the said control circuit (CC) receiving the power-supply voltage (Ubat) and the control signal (SC) in order to drive the on or off state of the said transistor (MOS) by applying to this transistor a periodic voltage having a period identical to the period of the control signal (SC) and a duty cycle which depends on the power-supply voltage, the said transistor (MOS) being connected between the input terminal ( 1 ) and a terminal (Br) of the RLC circuit (RLC 1 ), so that the current (I) flowing in the coil (L) has a peak intensity corresponding to a reference peak intensity.
4. The electronic circuit as claimed in claim 3 , wherein the reference peak intensity is adjustable in order deliberately to alter the range of the magnetic field sent out by the sending coil (L).
5. A system, called hands-free system, intended to control the unlocking of openable parts of a vehicle and/or to allow the starting of a vehicle, comprising an electronic circuit as claimed in claim 1 , wherein the power-supply voltage (Ubat) is supplied by a battery of the vehicle.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
April 18, 2001
December 17, 2002
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